List of Polymer Materials products
- classification:Polymer Materials
1306~1320 item / All 15839 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
Countermeasures for Wireless LAN Network Interference in the 5G Era: Composite Use Cases of Non-combustible Aluminum Sheets + Radio Wave Absorbing Body Box / Heat Insulating Transparent Electromagneti...
- Composite Materials
- Wireless LAN
- aluminum
A conductive fiber EMI shield gasket with flexibility, elasticity, and excellent conductivity, suitable for the contact parts of simple shield doors and for repairs.
- fiber
- others
A "high-frequency compatible electromagnetic wave absorption sheet" and "electromagnetic wave shielding fabric" designed for the 5G era, featuring a new absorption sheet that is compatible with millimeter-wave radar bands. The materials, mixing ratios, and film thickness of the electromagnetic wave absorption layer and metal reflection layer can be customized to match the frequencies emitted by electronic devices.
【High-Frequency Electromagnetic Wave Absorbing Sheet】 This is a thin sheet that absorbs high-frequency electromagnetic waves. We propose product forms tailored to your needs, including laminated adhesives. This product excels in electromagnetic wave absorption performance at oblique angles, is easy to process and install due to its thin sheet form, and has excellent durability. It is ideal for countermeasures against TX-RX coupling in modules such as ETC (5.8GHz), X-band (8-12GHz), ship radar (3GHz, 9GHz), proximity radar (24GHz), high-speed wireless transmission (38GHz), high-speed wireless LAN (60GHz), and vehicle-to-vehicle radar (76GHz), as well as for absorbing unwanted radiated noise, addressing misoperation due to ETC multipath reflection, and ghosting issues caused by nearby metal structures in radar applications. 【Electromagnetic Wave Shielding Fabric】 ● Compared to shielding measures using metal, it is lightweight and easy to handle. ● Ventilation holes: High breathability conductive fabric allows for shielding at the hole areas. ● It shields low-frequency magnetic fields, has excellent high-frequency shielding performance, and offers outstanding breathability and flexibility typical of fibers/fabrics. It is lightweight and has excellent processability for sewing and cutting, using polyester threads that do not generate dust.
Non-combustible materials exhibit excellent strength and electromagnetic wave shielding properties, are superior in durability and workability, and facilitate easy new construction, renovation, and ma...
- IC tag
- fiber
- aluminum
[Over 1000 measures implemented] A method to solve radio interference and reading errors of electronic tags (resolved through store renovations in apparel, specialty stores, supply chains, etc.) is explained with photos. The construction points of non-combustible aluminum SS sheets (essential under interior restrictions) are clearly visible at a glance.
●One day, if the electronic tag (RFID) is affected by interference, I think it would be good to use this guide to take countermeasures. ●Improvements implemented based on issues are published with photos. ●The construction procedure for the wall includes explanations with photos on the overlap of aluminum sheets, the pitch for tacker fixation, and the method of fixing with aluminum tape. ●Measures for leakage from outlets and embedded lighting fixtures that occurred during actual construction are also noted. Due to the recent pressure on radio waves leading to frequency shifts and reorganization, as well as the increase in RFID users and other wireless devices, it is not uncommon for issues such as radio wave interference to occur as a result of these influences. UHF band IC tags have a long communication distance of about 3 to 5 meters, which can lead to interference when multiple IC tag readers are installed in close proximity. In particular, in Japan, the bandwidth allocated to UHF band IC tags is narrow at 2 MHz (for high-output types, while low-output types like handheld devices have 3 MHz), making it difficult to avoid interference. Wireless sensor networks utilize the high radio reach of the 920 MHz band and, through high reliability via multi-hop communication, are accelerating wireless IoT solutions.
It is used to prevent electromagnetic wave interference by installing multiple readers, absorbing and shielding interference waves from adjacent lanes, allowing for more accurate tag reading.
- Other polymer materials
It alleviates chronic congestion in the shield room, allowing for a few people to assemble and set it up in the available space within the company for a short time, and after use, it can be disassembl...
- Other environmental equipment
- fiber
- Wireless LAN
A lightweight new material that shields electromagnetic waves from 100 kHz to 5 GHz and excels in processability such as sewing and cutting. *Flame retardant mark obtained.
- fiber
A "high-frequency compatible electromagnetic wave absorption sheet" and "electromagnetic wave shielding fabric" designed for the 5G era, featuring a new absorption sheet that is compatible with millimeter-wave radar bands. The materials, mixing ratios, and film thickness of the electromagnetic wave absorption layer and metal reflection layer can be customized to match the frequencies emitted by electronic devices.
【High-Frequency Electromagnetic Wave Absorbing Sheet】 This is a thin sheet that absorbs high-frequency electromagnetic waves. We propose product forms tailored to your needs, including laminated adhesives. This product excels in electromagnetic wave absorption performance at oblique angles, is easy to process and install due to its thin sheet form, and has excellent durability. It is ideal for countermeasures against TX-RX coupling in modules such as ETC (5.8GHz), X-band (8-12GHz), ship radar (3GHz, 9GHz), proximity radar (24GHz), high-speed wireless transmission (38GHz), high-speed wireless LAN (60GHz), and vehicle-to-vehicle radar (76GHz), as well as for absorbing unwanted radiated noise, addressing misoperation due to ETC multipath reflection, and ghosting issues caused by nearby metal structures in radar applications. 【Electromagnetic Wave Shielding Fabric】 ● Compared to shielding measures using metal, it is lightweight and easy to handle. ● Ventilation holes: High breathability conductive fabric allows for shielding at the hole areas. ● It shields low-frequency magnetic fields, has excellent high-frequency shielding performance, and offers outstanding breathability and flexibility typical of fibers/fabrics. It is lightweight and has excellent processability for sewing and cutting, using polyester threads that do not generate dust.
Prevent radio interference at logistics and defense bases, concert venues, and more! It can be processed with the same feel as general outdoor tent materials.
- Composite Materials
Medical-grade polyurethane custom suction tube.
- Rubber
Medical polyurethane tube that supports the nutritional supply for newborns.
- Rubber
Supports airway management with medical-grade polyurethane.
- Rubber
Supports saliva suction with a custom-made medical tube made of polyurethane.
- Rubber
Custom-made medical tubes that support observations during endoscopic examinations.
- Rubber
Custom-made medical tubes to support medication administration for animals.
- Rubber
Medical tubes optimal for sample collection in research and development.
- Rubber